🌧 Ventilation Load

Ventilation Load Calculator

Calculate sensible and latent heating and cooling loads from mechanical ventilation and infiltration. Quantify energy recovery savings from HRV and ERV systems for complete ventilation load analysis.

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🌧 Ventilation Load Results
Load ComponentHeating BTU/hrCooling Sensible BTU/hrCooling Latent BTU/hr
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Ventilation load in residential load calculations

Ventilation load is one of the most underestimated components in residential load calculations. In a tight, well-insulated Canadian home (NBC 2020, 2.5 ACH50), the ventilation load from an ASHRAE 62.2-required 75 CFM HRV can represent 15-25% of the total heating load. Ignoring it leads to undersized equipment.

Mechanical ventilation vs. infiltration

Both bring outdoor air into the building, but they're handled differently. Mechanical ventilation (HRV/ERV or exhaust-only) is a controlled, designed flow. Infiltration is uncontrolled air leakage through the building envelope. Both create loads. The infiltration load calculator covers infiltration in more detail using 3 methods.

HRV vs. ERV effect on loads

An HRV at 80% sensible efficiency reduces the sensible ventilation heating load by 80% — from 100% of the outdoor-to-indoor ΔT to 20%. It has no effect on latent load. An ERV with 65% latent efficiency reduces both sensible and latent ventilation loads. In summer, an ERV also reduces the cooling latent load from ventilation air by 65%. In most Canadian climates, the HRV sensible recovery is more valuable than ERV latent recovery. See the HRV calculator for full analysis.

Frequently Asked Questions

With an HRV, the ventilation load is reduced by the sensible recovery efficiency (SRE) of the unit. Net ventilation heating load = 1.1 x CFM x DT x (1 - SRE). For example, 150 CFM through an HRV with 75% SRE at 65°F delta T: load = 1.1 x 150 x 65 x 0.25 = 2,681 BTU/hr instead of 10,725 BTU/hr without recovery. ASHRAE 62.2 requires mechanical ventilation in all new Canadian homes. HRV sizing follows CSA F326 which specifies minimum flow rates based on house size and number of bedrooms.

ASHRAE 62.2-2022 requires continuous mechanical ventilation at: 0.03 x floor area (ft2) + 7.5 x (number of bedrooms + 1) CFM. For a 2,000 ft2 home with 3 bedrooms: 0.03 x 2000 + 7.5 x 4 = 60 + 30 = 90 CFM. This is the minimum continuous rate. Many Canadian energy programs (R-2000, ENERGY STAR) require an HRV sized to provide this rate with balanced supply and exhaust, so no net pressure imbalance occurs in the building envelope.